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My question is that how does this assignment happen in c#? I mean, how does it calculate the answer 1 (with 257), and how does it calculate 0(with 256)?

the code is:

int intnumber=257;
byte bytenumber=(byte)intnumber;//the out put of this code is 1

int intnumber=256;
byte bytenumber=(byte)intnumber;//the out put of this code is 0

My question is what happen,that the output in first code is:1 and in second one is:0

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please read my question exactly then give me a negative vote!!! thanks – Hava Darabi Aug 6 '13 at 22:41
The first is not required to set bytenumber to 1, although it may. If compiling with overflow checks enabled, it will not set bytenumber to anything, it will throw an exception. Similarly for the second. – hvd Aug 6 '13 at 22:43
@Hava: Okay, I've done that. Thanks for the advice. – Lightness Races in Orbit Aug 7 '13 at 13:54
up vote 0 down vote accepted

the byte data type contains a number between 0 to 255. When converting an int to byte, it calculates the number modulo 256.

byte = int % 256
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This is the net effect, but not how it is calculated. – lukegravitt Aug 6 '13 at 23:08
@lukegravitt The C++ standard defines the equivalent conversion as described in this answer, but pretty much no one will object to saying the high bits get discarded. It's only fitting that when the C# spec says the high bits get discarded, it's explained as a modulo operation. It's the same thing anyway :) – hvd Aug 7 '13 at 9:21
Indeed. He didn't ask about the MSBs, he just wanted to know how it works, and this is the simplest of answers. – EZSlaver Aug 7 '13 at 9:32
@EZSlaver - how well does this simplest answer extend to the casting of negative ints to byte? – hatchet Aug 7 '13 at 9:54
@hvd - my point was that taken simply, people may initially think -1 % 256 = -1, and then require additional explanation for how the cast is computed. Also, using the % operator (a normally expensive operation) to explain the cast may convey to some that casting to byte is computationally expensive (it isn't). – hatchet Aug 7 '13 at 10:43

A byte only occupies one byte in memory. An int occupies 4 bytes in memory. Here is the binary representation of some int values you've mentioned:

      most significant           least significant
 255: 00000000 00000000 00000000 11111111
 256: 00000000 00000000 00000001 00000000
 257: 00000000 00000000 00000001 00000001

You can also see how this works when casting negative int values to a byte. An int value of -255, when cast to a byte, is 1.

-255:  11111111 11111111 11111111 00000001

When you cast an int to a byte, only the least significant byte is assigned to the byte value. The three higher significance bytes are ignored.

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A single byte only goes up to 255. The code wraps around to 0 for 256 and 1 for 257, etc...

The most significant bits are discarded and you're left with the rest.

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255 is the maximum value that can be represented in a single byte:

Hex code: FF

256 does not fit in 1 byte. It takes 2 bites to represent that:

01 00

since you're trying to put that value in a variable of type byte (which of course may only contain 1 byte), the second byte is "cropped" away, leaving only:


Same happens for 257 and actually for any value.

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1 is assigned because the arithmetic overflow of byte values (max 255) exceed by 2 unit.

0 is assigned because exceed by 1 unit.

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